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The Importance of Peroxy Radical Hydrogen-Shift Reactions in Atmospheric Isoprene Oxidation
Kristian H. Moller
, Kelvin H. Bates,
Henrik G. Kjaergaard
Department of Chemistry
30
Citations (Scopus)
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Dive into the research topics of 'The Importance of Peroxy Radical Hydrogen-Shift Reactions in Atmospheric Isoprene Oxidation'. Together they form a unique fingerprint.
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Keyphrases
Annual Emission
20%
Atmospheric Conditions
20%
Atmospheric Oxidation
20%
Bimolecular Reaction
20%
Chirality
20%
CO 2
20%
Complete Oxidation
20%
Diastereomers
20%
GEOS-Chem Model
20%
Hydrogen Shift
100%
Isoprene
40%
Isoprene Oxidation
100%
Multiconformer Transition State Theory
20%
Order of Magnitude
20%
Oxidation Mechanism
20%
Peroxy Radicals
100%
Rate Coefficients
20%
Reaction Rate Coefficient
40%
Shift Reaction
100%
Temperature Effect
20%
Unimolecular
20%
Chemistry
Bimolecular Reaction
25%
Chemistry
25%
Chirality
25%
Diastereomer
25%
Hydrogen
100%
Oxidation Reaction
25%
Rate Constant
25%
Transition State Theory
25%